Reclosing mechanism for containers, particularly beverage containers

ABSTRACT

The reclosing mechanism for containers, particularly beverage containers, has the latch ( 3 ) fitted slidingly in the opening ( 5 ). Formed on the top side of the latch ( 3 ) there is an attachment ( 14 ) shorter than the opening ( 5 ) and narrower than the latch ( 3 ), where the attachment ( 14 ) is fitted with a pull tab ( 4 ) longer than the attachment ( 14 ) and fixed to the attachment ( 14 ) with a hinge ( 6 ) and a connector ( 7 ) which serves as the seal before the first opening. Formed on the opposite longitudinal sides of the attachment ( 14 ) there are catches ( 8 ) fitted slidingly on the guides ( 13 ) formed on the longer side walls of the opening ( 5 ). On the top surface of the element in which the opening ( 5 ) is made there are protrusions ( 10 ) formed on the side of the pull tab ( 4 ) front, on which the pull tab ( 4 ) rests and blocks the sliding of the latch ( 3 ) in the closed position.

The invention concerns a reclosing mechanism for containers,particularly beverage containers. The mechanism is suitable forcontainers of any structure, including cans and carton containers.

Known from the international patent application PCT/DE97/02061 (WO98/12118) is a container cover, particularly of a beverage can, tightlyclosing the container, composed of at least two elements, where thefirst element has a tightly closing flap at the base, removable at leastpartially or severable so as to open the container and uncover itsopening, whereas the other element has an additional opening positionedat the same distance from the central axis of the cover as the tightlyclosing flap or the container opening. One of the two elements is fixedfirm and tight to the container body, whereas the other may rotate alongthe central axis of the container body from position one, in which theadditional opening matches tightly the closing flap or containeropening, to position two, in which the tightly closing flap or containeropening is closed tight by the respective second element or its base.

Also known from international patent application PCT/EP2003/014675 (WO2004/056667) is a reclosing cover, particularly of a beverage can.According to this solution, the cover has a severable section encircledwith a pre-defined severance line and a pull tab fixed so as to allowits rotation to the cover plate. The protrusion for fixing the pull tabhas a freely twisted element, and at the bottom of the pulling sectionof the pull tab there is a flat closing attachment intended forreclosing the opening.

Known from international patent application PCT/EP2010/063097(WO2011/026991) is a container cover, particularly for a pressurizedbeverage can, in which the outflow opening is closed with an elasticclosing pipe element by moving the triggering element from the closedposition to the open position, where the pipe element cooperates withthe pressure balancing mechanism. The pipe element is closed tight bynarrowing it crosswise when the triggering element is in its closedposition.

Known from international patent application PCT/EP2010/052192 (US2011/0315684 A1) is a cover for containers, particularly beverage cans,which includes a closing element made of elastic material, positionedentirely at the bottom side of the cover and partially integrated withit in such a manner as to protect it against twisting, fitted with atriggering mechanism fixed to the outer surface of the cover via anattachment. When the triggering mechanism is moved, the part of theclosing mechanism which covers the opening turns perpendicular to thecover surface. The opening can be re-closed by moving the triggeringmechanism. In this solution, the outflow opening is sealed before thefirst use. The seal takes the form of a pin or label which needs to betorn off to uncover the beverage outflow opening.

The structure of the known cover closings is complicated, and theirproduction is costly.

The purpose of this invention is to develop a simple hermetic structureof a reclosing mechanism intended particularly for pressurized andnon-pressurized beverage containers, which would enable repeated closingand opening of the outflow opening, characterised by its universalapplication, easy manipulation by the user, and simplicity of themanufacturing process, which will contribute substantially to reducingthe manufacturing cost compared to the known solutions.

Reclosing mechanism for containers, particularly beverage containers,sealed before the first opening, containing a latch to open and reclosethe beverage outflow opening according to the invention is characterisedin that the latch is fitted slidingly in the beverage outflow opening,where formed on the top side of the latch there is an attachment shorterthan the opening and narrower than the latch, where the attachment isfitted with a pull tab longer than the attachment and fixed to theattachment with a hinge, preferably a membrane hinge, and a connectorwhich serves as the seal before the first opening, with catches formedon the opposite longitudinal sides of the attachment fitted slidingly onthe guides formed on the longer side walls of the opening. In the closedposition, the top surface around the edge of the latch adheres to thebottom surface around the opening, thus sealing it, while on the topsurface of the element in which the opening is made there areprotrusions formed on the side of the pull tab front, on which the pulltab rests and blocks the sliding of the latch in the closed position.Preferably, at least one of these protrusions has a bulb to prevent pulltab's sliding past the protrusions. Moreover, there is a characteristicclick heard when the opening is reclosed and the pull tab positionedbelow the bulb, which confirms that the pull tab has been positionedbelow the bulb.

Preferably, on the top surface of the element in which the opening ismade there is a protrusion formed on the side of the pull tab hinge, onwhich the pull tab rests when the sliding of the latch from the closedposition starts. Preferably, the protrusions formed on the top surfaceof the element in which the opening is made are of the height at leastequal to the height determined by the top surface of the pull tab in itsposition before the first opening.

Moreover, there are additional shaped profiles formed on the surfacearound the opening, or on that part of the surface which adheres to thesurface of the latch or its respective part, and/or on the surface ofthe latch or its part adhering to the surface around the opening or toits respective part.

In the area of the contact point of the latch and the surface around theopening the reclosing mechanism may be additionally sealed with asealing coat.

The opening may be formed in the lid of container, e.g. can, or in aseparate element fixed to the container, e.g. a carton box, or made inthe container wall.

Preferably, the reclosing mechanism is made of plastic and the latch ismade as a single integrated element formed in the single injectionprocess.

The reclosing mechanism according to the invention meets the intendedpurposes.

An exemplary embodiment of the invention incorporated in a beverage canlid is presented on a drawing, in which:

FIG. 1 shows the beverage can lid with the reclosing mechanism invertical longitudinal section along the A-A plane marked on FIG. 2,

FIG. 2—top view of the lid with the reclosing mechanism,

FIG. 3—the lid with the opening without the latch mounted, in verticallongitudinal section along the A-A plane marked on FIG. 4,

FIG. 4—top view of the lid with the opening without the latch mounted,

FIG. 5—the latch in vertical longitudinal section along the A-A planemarked on FIG. 6,

FIG. 6—top view of the latch,

FIG. 7—the latch in vertical cross-section along the B-B plane marked onFIG. 6

FIG. 8—contact point of the latch surface and the surface around theopening with the shaped profile in the form of an offset along the rimand with the sealing—top view.

FIG. 9—the lid with the reclosing mechanism and the shaped profile inthe form of an offset along the opening rim and the sealing, in verticallongitudinal section along the A-A plane marked on FIG. 8, and detail Benlarged,

FIG. 10—the lid with the opening without the latch mounted, with theshaped profile in the form of an offset around the opening, its bottomside in bird's eye view,

FIG. 11—the lid with the shaped profile in the form of an offset aroundthe opening, in vertical longitudinal section along the A-A plane markedon FIG. 10, and detail B enlarged,

FIG. 12—top view of the contact point between the surface of the latchand the surface around the opening with the shaped profile in the formof a groove, and with the sealing,

FIG. 13—the lid with the reclosing mechanism, with the shaped profile inthe form of a groove around the opening, and with the sealing, shown invertical longitudinal section along the A-A plane marked on FIG. 12, anddetail B enlarged,

FIG. 14—the lid with the opening without the latch mounted, with theshaped profile in the form of a groove around the opening, its bottomside seen in bird's eye view,

FIG. 15—the lid with the opening without the latch mounted, with theshaped profile in the form of a groove around the opening, in verticallongitudinal section along the A-A plane marked on FIG. 14, and detail Benlarged.

FIG. 16—view of the lid

In one embodiment of the invention, the reclosing mechanism is made ofplastic in the lid 2 of a can 1 (FIGS. 1 to 7). The reclosing mechanismis equipped with a latch 3, which is fitted slidingly in the opening 5,and around the rim it adheres with its top flat surface to the bottomflat surface 12 formed on the bottom side of the lid 2. Formed on thetop side of the latch 3 there is an attachment 14 shorter than theopening 5 and narrower than the latch 3, where the surface of the latch3 around the attachment 14 is flat. The attachment 14 is fitted with apull tab 4 to unseal the container and slide the latch 3. The pull tab 4is longer than the attachment 14. The pull tab 4 is fixed to theattachment 14 with a membrane hinge 6 and a connector 7 which serves asthe seal before the first opening. Formed on the opposite longitudinalsides of the attachment 14 there are catches 8 fitted slidingly on theguides 13 formed on the longer side walls of the opening 5 so that whenin the closed position, the tope flat surface around the edge of thelatch 3 adheres to the bottom flat surface around the opening 5, thussealing it. On the top surface of the lid 2 there are two protrusions 10formed on the side of the pull tab 4 front, on which the pull tab 4rests and blocks the sliding of the latch 3 in the closed position. Theprotrusions 10 have a bulb 18 to prevent pull tab's 4 sliding past theprotrusions, where there is a characteristic click heard when theopening is reclosed, which confirms that the pull tab has beenpositioned below the bulb. On the top surface of the lid 2, there is aprotrusion 9 formed on the side of the hinge 6, on which the pull tab 4rests when the sliding of the latch from the closed position starts. Theprotrusions 9 and 10 reach slightly higher than the height determined bythe top surface of the pull tab 4 in the closed position. Thanks tothat, the top surfaces of the protrusions 9 and 10 can support thesubsequent containers stacked one on top of another while eliminatingthe risk of damaging the pull tab 4 and the connector 7 (the seal).

In another embodiment of the invention the reclosing mechanism describedin example one is additionally sealed with a sealing coat covering thebottom of the surface around the opening 5 in the latch 3 contact area.

In other embodiments of the invention the reclosing mechanism describedin example one has an additional shaped profile on the surface aroundthe opening 5 touching on the latch 3 in the form of an offset 16 (FIG.10, 11) around the rim of the opening 5, or in the form of a groove 17(FIG. 14, 15), which as the result of being covered with the sealingcoat become filled with a susceptible (elastic, resilient) sealant 15(FIG. 8, 9, 12, 13).

In all possible embodiments of the invention the latch 3 is made ofplastic, preferably as a single integrated element formed in the singleinjection process.

In all possible embodiments of the invention, the opening 5 may beformed in the lid 2, as shown in the above exemplary embodiments, or ina separate element fixed to the container, e.g. a carton box, or made inthe container wall.

The latch 3 is fitted in the opening 5 by pressing it into the opening 5from the bottom side, so that the catches 8 are introduced into theguides 13, and the pull tab 4 is placed between the protrusions 9 and10. The reclosing mechanism may be additionally sealed before assemblingby covering latch 3 contact surface around the opening 5 with a sealingcoat 15.

In order to open the reclosing mechanism one lifts the pull tab 4 up,thus breaking the connector 7 and turning the pull tab 4 up on the hinge6. In effect of the rotation, the edge of the pull tab 4 presses on theprotrusion 9, thus sliding the latch 3 and unsealing the container.Pulling the pull tab 4 towards the protrusions 10 results in sliding thelatch 3 and uncovering the opening 5. The opening 5 may be reclosed bypulling the pull tab 4 towards the protrusion 9, and then by pressingthe pull tab behind the bulbs of the protrusions 10. There is acharacteristic click heard, which confirms that the opening 5 has beenclosed.

1. A reclosing mechanism for containers, particularly beveragecontainers, sealed before the first opening, containing a latch to openand reclose the beverage outflow opening, characterised in that thelatch (3) is fitted slidingly in the beverage outflow opening (5), whereformed on the top side of the latch (3) there is an attachment (14)shorter than the opening (5) and narrower than the latch (3), while theattachment (14) is fitted with a pull tab (4) longer than the attachment(14) and fixed to the attachment (14) with a hinge (6) and a connector(7) which serves as the seal before the first opening, with catches (8)formed on the opposite longitudinal sides of the attachment (14), fittedslidingly on the guides (13) formed on the longer side walls of theopening (5), so that in the closed position the top surface around theedge of the latch (3) adheres to the bottom surface around the opening(5), thus sealing it, while on the top surface of the element in whichthe opening (5) is made there are protrusions (10) formed on the side ofthe pull tab (4) front, on which the pull tab (4) rests and blocks thesliding of the latch (3) in the closed position.
 2. The reclosingmechanism according to claim 1, characterised in that the pull tab (4)is fixed to the attachment (14) with a membrane hinge (6).
 3. Thereclosing mechanism according to claim 1, characterised in that at leastone of the protrusions (10) has a bulb (18) on the side of the pull tabfront to prevent pull tab's (4) sliding past the protrusions (10). 4.The reclosing mechanism according to claim 1, characterised in that onthe top surface of the element in which the opening (5) is made there isa protrusion (9) formed on the side of the hinge (6), on which the pulltab (4) rests when the sliding of the latch (3) from the closed positionstarts.
 5. The reclosing mechanism according to claim 1, characterisedin that the protrusions (9, 10) formed on the top surface of the elementin which the opening (5) is made are of the height at least equal to theheight determined by the top surface of the pull tab (4) in its positionbefore the first opening.
 6. The reclosing mechanism according to claim1, characterised in that there are additional shaped profiles (16, 17)formed on the surface around the opening (5), or on that part of thesurface which adheres to the surface of the latch (3) or its respectivepart, and/or on the surface of the latch (3) or its part adhering to thesurface around the opening (5) or to its respective part.
 7. Thereclosing mechanism according to claim 1, characterised in that it isadditionally sealed in the area of the contact point of the latch (3)and the surface around the opening (5) with a sealing coat (15).
 8. Thereclosing mechanism according to claim 1, characterised in that it ismade of plastic.
 9. The reclosing mechanism according to claim 8,characterised in that the latch (3) is made as a single integratedelement formed in the single injection process.